2) magnesium-aluminium spinel crystal
镁铝尖晶石晶体
3) magnesia-alumina spinel
镁铝尖晶石
1.
Study on preparation of magnesia-alumina spinel additive and its performances of catalytic olefin reduction;
镁铝尖晶石的制备及其催化降烯烃性能研究
2.
Synthesis of magnesia-alumina spinel refractories;
镁铝尖晶石质耐火材料的合成
3.
Preparation of magnesia-alumina spinel and its application in catalytic reaction;
镁铝尖晶石的制备及在催化反应中的应用
5) Magnesia alumina spinel
镁铝尖晶石
1.
The fused magnesia,magnesia alumina spinel and α-Al2O3 were put in the ground substance for developing the stability of thermal shock.
以优质电熔镁砂、烧结镁铝尖晶石为主要原料,采用纸浆废液作为结合剂研究镁质复合滑板材料。
2.
Thermodynamic analysis and hot condition experiment were used to study the effects of temperature of molten steel and mass fraction of carbon on the corrosion of magnesia alumina spinel refractory,and the corrosion mechanism was discussed.
根据热力学分析和热态实验研究了钢水温度及其碳质量分数对镁铝尖晶石质耐火材料侵蚀的影响,并探讨了耐火材料的侵蚀机理。
6) Spinel
[英][spi'nel] [美][spɪ'nɛl]
镁铝尖晶石
1.
The effect of preparation techniques to the crystallization of glass-ceramic was studied through DTA,XRD and TEM,and transparent glass-ceramic that contains magnesium-aluminum spinel nanocrystallites were produced.
利用DTA、XRD和TEM研究了制备工艺对微晶玻璃晶化行为的影响,并制备出具有纳米镁铝尖晶石为晶相的微晶玻璃。
2.
The spinel matrix composites reinforced by surface modified carbon fibers were prepared, and the carbon fiber was coated with Ni,Cu and Cu+Ni by electroless plating process.
通过化学镀方法,在碳纤维表面分别镀上Ni、Cu和Cu+Ni镀层,然后与镁铝尖晶石陶瓷复合,制备表面改性碳纤维增强镁铝尖晶石基复合材料,研究各种碳纤维的含量对复合材料性能的影响规律。
3.
Manufacture of high-purity compact spinel clinker by sintering process was investigated , the properties of spinel clinker were introduced, and the effects dence of some technological elements on the manufacture of spinel clinker were discused.
本文研究了二步煅烧法制备高纯致密镁铝尖晶石熟料的方法,叙述了烧结尖晶石熟料的特性,讨论了某些工艺因素对镁铝尖晶石熟料制备的影响。
补充资料:半透明烧结镁铝尖晶石陶瓷
分子式:
CAS号:
性质:又称半透明烧结镁铝尖晶石陶瓷。在0.3~6.5μm范围的线性光透射率大于10%,可见光范围的总透射率约为75%。用镁-铝的盐或氢氧化物的热分解产物为原料,添加少量烧结促进剂氧化钙等。在真空中经1800~1900℃或湿氢气氛中1700℃左右烧结成半透明陶瓷。可用于制作高温电弧、密封外壳、天线窗、红外透射装置等。
CAS号:
性质:又称半透明烧结镁铝尖晶石陶瓷。在0.3~6.5μm范围的线性光透射率大于10%,可见光范围的总透射率约为75%。用镁-铝的盐或氢氧化物的热分解产物为原料,添加少量烧结促进剂氧化钙等。在真空中经1800~1900℃或湿氢气氛中1700℃左右烧结成半透明陶瓷。可用于制作高温电弧、密封外壳、天线窗、红外透射装置等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条